Floor cleansing system and method for use thereof

ABSTRACT

A floor cleaning system and method for use thereof is disclosed for facilitating removal of waste materials. The system includes a floor base, a floor covering, a substrate spacing the floor base and the artificial grass surfacing apart from one another, and at least one fluid-carrying structure. The floor base receives the waste materials. The floor covering is spaced above the floor base, and is at least in part permeable to the waste materials and in liquid communication with the floor base. The fluid-carrying structure is adapted to provide cleaning fluid to the floor base to rinse the waste materials received thereon. The cleaning fluid and waste materials flow along the floor base under the floor covering to facilitate evacuation thereof. The method includes supporting the floor covering spaced above the floor base; exposing the floor covering to the waste materials; passing the waste materials through the floor covering to the floor base; rinsing the waste materials from the floor base with a cleaning fluid; and draining the cleaning fluid and the waste materials from the floor base.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention is generally related to a floor adapted tofacilitate removal of waste materials therefrom. More particularly, thepresent invention is related to a floor having a floor base forreceiving unwanted waste liquids and solids, a floor covering forpassing the waste materials therethrough, and a built-in rinsingmechanism for facilitating removal of the waste materials from the floorbase. More specifically, the present invention is related to a floorhaving a floor base for receiving waste liquids and solids thereon, apermeable floor covering for supporting human beings and animals andpermitting passage of the waste materials therethrough, and afluid-carrying structure for releasing cleaning fluids to rinse away andfacilitate evacuation of the waste materials from the floor base.

2. Description of the Prior Art

Typically, conventional flooring can include a hard semi-impermeablebase and a floor covering applied over the base. A padding layer can beprovided between the base and the floor covering. Either way, however,waste materials (i.e., unwanted liquids and solids) received on thefloor covering, depending on whether the floor covering is permeable,can pass therethrough, or remain on and possibly soak the floorcovering. If the waste materials pass through the floor covering, thewaste materials then can remain on the base, or, when padding is used,can potentially be trapped between the base and the floor covering byremaining on and possibly soaking the padding. Accordingly, it can bedifficult to remove waste materials from conventional flooring.

When conventional flooring is used, for example, in animal enclosures,having the waste materials remain on or possibly soak the floorcovering, remain on the base, or be trapped between the base and thefloor covering can have deleterious consequences. Animal enclosures areenclosed indoor or outdoor structures for containing and/or shelteringanimals therein. Given that the animals reside within the animalenclosures, the floors thereof receive waste materials such as spilledliquid and solid foods, liquids and solids expelled by the animals(e.g., urine and fecal matter), and other liquids or small debris. Tofacilitate removal of the waste materials, the floors of the animalenclosures usually permit rinsing thereof. A hose sprayer spraying watercan be manipulated by a user to rinse the animal waste materials fromthese surfaces. However, such a rinsing operation is time consuming tothe user, requires removal of the animals therefrom, and necessitateswetting the entire floor. Furthermore, if the waste materials are notremoved from the floor, the waste materials may cause unhygienicconditions in the animal enclosures.

Therefore, there is a need for an improved floor. Such a floor can havepermeable floor surfacing to pass unwanted liquid and solid wastematerials therethrough, while having a semi-impermeable floor base toreceive the waste materials thereon. Furthermore, a floor can employ abuilt-in rinsing mechanism for releasing cleaning fluids to rinse awayand facilitate evacuation of the waste materials from the floor base.

SUMMARY OF THE INVENTION

The present invention in one preferred embodiment contemplates a wasteremoval system for removing waste materials, the waste removal systemincluding a floor base for receiving the waste materials, a floorcovering spaced above the floor base, the floor covering adapted tosupport a human being or an animal, and being at least in part permeableto the waste materials and in liquid communication with the floor base,and at least one fluid-carrying structure adapted to provide cleaningfluid to the floor base to rinse the waste materials received thereon,where the cleaning fluid and the waste liquids flow along the floor baseunder the floor covering to facilitate evacuation thereof.

The present invention in a further preferred embodiment contemplates afloor for use in an animal enclosure, the floor including a floor basebeing at least in part impermeable to waste materials received thereon,an artificial grass surfacing spaced above the floor base, theartificial grass surfacing being at least in part permeable to pass thewaste materials therethrough, and at least one fluid-carrying structureadapted to provide cleaning fluid to the floor base to rinse the wastematerials received thereon, where the cleaning fluid and the wastematerials flow along the floor base under the artificial grass surfacingto facilitate drainage thereof.

The present invention in another preferred embodiment contemplates amethod for removing waste materials from flooring by supporting a floorcovering spaced above a floor base, exposing the floor covering to thewaste materials, passing the waste materials through the floor coveringto the floor base, rinsing the waste materials from the floor base witha cleaning fluid, and draining the cleaning fluid and the wastematerials from the floor base.

It is understood that both the foregoing general description and thefollowing detailed description are exemplary and exemplary only, and arenot restrictive of the invention as claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate preferred embodiments of theinvention. Together with the description, they serve to explain theobjects, advantages and principles of the invention. In the drawings:

FIG. 1 is an elevational view of one embodiment of a waste removalsystem according to the present invention;

FIG. 2 is a plan fragmentary view of the waste removal system of FIG. 1.

FIG. 3 is a perspective fragmentary view of the waste removal system ofFIGS. 1 and 2 during installation;

FIG. 4 is a perspective fragmentary view of another embodiment of awaste removal system according to the present invention; and

FIG. 5 is an elevational view of a cleaning fluid infusion device foruse with the waste removal system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The following description is intended to be representative only and notlimiting, and many variations can be anticipated according to theseteachings. Reference will now be made in detail to the preferredembodiments of this invention, examples of which are illustrated in theaccompanying drawings.

FIGS. 1-3 show one preferred embodiment and FIG. 4 shows anotherpreferred embodiment of a waste removal system according to the presentinvention. In FIGS. 1-3 and FIG. 4, the preferred embodiments of thewaste removal system are generally indicated by the numeral 10, and likenumerals are used to indicate similar elements of the embodiments. Wasteremoval system 10 can serve as flooring for an area exposed to unwantedliquid and solid waste materials. Waste removal system 10 can be used inan indoor or an outdoor setting, and is provided to facilitate removalof the unwanted liquid and solid waste materials received thereon.

For example, waste removal system 10 can be used as flooring for indooror outdoor animal enclosures. As used below, the words “animalenclosures” generally refer to indoor or outdoor animal containment andsheltering areas. For example, the animal enclosures can include animalcontainment or sheltering areas at zoos, farms, stables, kennels,shelters, and residential homes.

The animal enclosures at zoos, farms, stables, kennels, and shelterstypically include various stalls for containing various animals apartfrom one another or common areas allowing the animals to more freelymove about. Sometimes, single stalls can be provided in separate areasapart from one another, or multiple stalls can be provided in separatefenced partitions within the same area. Waste removal system 10according to the present invention can serve as the flooring of areasforming single stalls, multiple stalls, or common areas. In doing so,waste removal system 10 can support animals thereon, and can facilitateremoval of waste materials such as spilled liquid and solid foods,liquids and solids expelled by the animals (e.g., urine and fecalmatter), and other liquids or small debris.

Additionally, waste removal system 10 can also be used as the flooringof indoor or outdoor athletic facilities, as well as residential spaces.For example, waste removal system 10 can serve as the playing surface ofthe indoor or outdoor athletic facilities. Furthermore, waste removalsystem 10 can serve as surfaces of residential patios and play areas. Inthese instances, waste removal system 10 can support human beingsthereon, and facilitate removal of unwanted liquid and solid wastematerials received thereon. Additional applications of waste removalsystem 10 will be also be apparent from the below-discussed descriptionthereof.

Generally, the embodiments of waste removal system 10, as shown in FIGS.1-3 and in FIG. 4 include a floor base (or sub-floor) 12 and a floorcovering 14 spaced above floor base 12. Waste removal system 10 alsogenerally includes a substrate 16 and a fluid-carrying structure 18.Substrate 16 can support floor covering 14 on floor base 12.Furthermore, floor covering 14 can be configured to obscure the view offloor base 12, substrate 16, and the waste materials disposedthereunder. For example, floor covering 14 can be adapted to block theview of floor base 12, substrate 16, and the waste materials, and, indoing so, hide the operation of waste removal system 10 from view. Assuch, waste removal system 10 can maintain an aesthetically pleasingappearance, and avoid unnecessary exposure of a user to the wastematerials disposed under floor covering 14.

Substrate 16 spaces floor base 12 and floor covering 14 apart from oneanother to provide a clearance therebetween. In waste removal system 10of FIGS. 1-3, fluid-carrying structure 18 is positioned between floorbase 12 and floor covering 14 in the clearance afforded by substrate 16.Furthermore, in waste removal system 10 of FIG. 4, fluid-carryingstructure 18 is positioned above floor covering 14.

A barrier 20 (shown in FIGS. 1-3) or a lip 21 (shown in FIG. 4) can beprovided adjacent one or more edges of waste removal system 10. Barrier20 can be formed, for example, from planks of pressure-treated lumberand/or planks of moisture-resistant artificial materials marketed underthe trademarks TREX® and AZEK®, and can be secured to floor base 12 andsealed therearound to inhibit the waste materials from passing thereby.Furthermore, lip 21 can be formed, for example, as part of floor base12. Either way, barrier 20 and lip 21 can inhibit the waste materialsreceived on floor base 12 within the area defined by barrier 20 and lip21 from escaping thereby. For example, barrier 20 and lip 21 can abutthe perimeter of the area in which waste removal system 10 is providedto inhibit the waste materials from leaving the area. Furthermore,barrier 20 and lip 21 can also be used for securing floor covering 14.As discussed below, floor covering 14 can be secured to barrier 20 orlip 21 at the edges of waste removal system 10.

Floor base 12 is provided to receive the waste materials, and allow thewaste materials to flow therealong. Floor base 12 can be formed from asemi-impermeable hard material provided to inhibit the waste materialsfrom penetrating therethrough. For example, floor base 12 can beconstructed of concrete, asphalt, or ceramic. When constructed withthese materials, the concrete can be poured and the asphalt can be laidinto position on the ground to form floor base 12. Furthermore, ceramicin the form of tiles can be positioned within a setting provided on theground to form floor base 12. To enhance the impermeability of floorbase 12 (when constructed of concrete, asphalt, or ceramic materials), amoisture-resistant sealant can be applied thereon. Furthermore, animpermeable liner 22, as shown in FIG. 1, can be applied over floor base12 to prevent the waste materials from penetrating through floor base12. Impermeable liner 22, for example, can be made of a sheet or sheetsof polymeric materials such as plastic or rubber applied over floor base12. Rather than using a semi-impermeable hard material for constructionthereof, floor base 12 can also be formed by applying impermeable liner22 directly over the ground or crushed aggregate covering the ground.

A drainage trench 24 is provided to drain the waste materials receivedon floor base 12. Although only drainage trench 24 is shown in FIGS.1-3, multiple trenches can be provided to drain the waste materialsreceived on floor base 12. For example, trenches can be providedproximate the middle and/or or the edges of waste removal system 10.Furthermore, a drain passage 25 can be provided to receive the wastematerials accumulated in drainage trench 24. As shown in FIG. 4, ratherthan being used in combination with drainage trench 24, drain passage 25can be used solely to receive the waste materials. Furthermore, althoughonly one drain passage is shown in FIG. 4, multiple passages can beprovided. For example, drain passages 25 can be provided proximate thecenter and/or the corners of waste removal system 10.

To facilitate the flow of the waste materials therealong, in a preferredembodiment, floor base 12 can be sloped. As shown in FIG. 1-3, forexample, floor base 12 is gradually sloped at a pitch of 1.5% from afirst elevation 26 to a second elevation 28 lower than first elevation26. While a pitch of 1.5% is preferred, floor base 12 can facilitateflow of waste materials thereover with alternate preferred pitchesranging, for example, from 1.0 to 10% and more preferably from 1.25 to2.5%. An edge of the waste removal system 10, as shown FIGS. 2 and 3, isprovided proximate first elevation 26, and drainage trench 24 isprovided proximate second elevation 28. Accordingly, the waste materialsreceived on floor base 12 in an area between first elevation 26 andsecond elevation 28 are directed toward drainage trench 24.

Substrate 16 is positioned on floor base 12 to support floor covering14. Substrate 16 facilitates passage of the waste materials from floorcovering 14 to floor base 12. Substrate 16 can be formed from a unitarypiece of polymeric material (shown in FIGS. 1-3). Furthermore, substrate16 can be formed of metal, plastic, or wood grating (shown in FIG. 4).Substrate 16 can also be formed of pedestals (not shown) formedseparately or integrally with floor base 12.

The thickness or height of substrate 16 defines the clearance that floorbase 12 and floor covering 14 are spaced apart from one another. Forexample, the thickness of substrate 16 can be one (1) inch to provideone (1) inch of clearance between floor base 12 and floor covering 14.However, the thickness of substrate 16 should not be so limited.Substrate 16 can have a lesser or greater thickness depending, forexample, on the diameter of fluid-carrying structure 18 positionedbetween floor base 12 and floor covering 14 (shown in FIG. 1).

When formed of the unitary piece of polymeric material, or of the metal,plastic, or wood grating, substrate 16 includes a first side 30 facingfloor base 12, and a second side 32 facing floor covering 14. Substrate16 of FIGS. 1-3 includes various openings 34 therethrough to permitpassage of the waste materials from second side 32 to first side 30.Although openings 34 of FIGS. 1-3 are shown having a circularcross-section, openings 34 can have any variety of cross-sectionalshapes. For example, openings 34, as shown in FIG. 4, can have a squarecross-section. Openings 34 afford passage of the waste materials fromfloor covering 14 to floor base 12.

Channels (not shown) can be provided in first side 30 of substrate 16facing floor base 12. The channels can, for example, be formed bymolding a shape and/or by removing material from first side 30 ofsubstrate 16. The channels can provide a passage for moving the wastematerials between floor base 12 and substrate 16. For example, thechannels can be aligned with the slope of floor base 12 to direct thewaste materials to drainage trench 24 and/or drain passage 25.

Like substrate 16, the pedestals formed separately or integrally withfloor base 12 space floor base 12 and floor covering 14 apart from oneanother. The pedestals are raised protrusions extending upwardly fromfloor base 12 for supporting floor covering 14 thereon, and arepositioned apart from one another along floor base 12 with gapstherebetween. As such, the pedestals afford passage therebetween of thewaste materials from floor covering 14 to floor base 12, and along floorbase 12.

Floor covering 14 can, for example, be permeable artificial grassmaterial and carpeting, or other permeable materials. When floorcovering 14 is an artificial grass material, as shown in FIGS. 1-4, anartificial grass marketed under the trademark K9GRASS™ can be used.Furthermore, floor covering 14 can be secured at the edges of wasteremoval system 10, or alternatively be secured to substrate 16. Forexample, floor covering 14 can be adhered or mechanically fastened tobarrier 20, lip 21, and/or substrate 16. By securing floor covering 14to barrier 20, lip 21, and/or substrate 16, floor covering 14 can bemaintained in position relative to floor base 12.

As shown in FIG. 1, the artificial grass material forming floor covering14 includes a backing 36 and blades 38 extending outwardly therefrom.The density, height, and shape of blades 38 can be configured to becomfortable, while also being durable and easy to clean. Furthermore,backing 36 can be a knitted fabric and/or a unitary piece of polymericmaterial with openings (not shown) formed therein. The openings formedin backing 36 are smaller than openings 34 formed in substrate 16 ofFIGS. 1-3 and of FIG. 4, but should be sized to accommodate passage ofthe waste materials therethrough. As such, backing 36 can be permeableto liquids, and, if the openings formed therein are large enough, canpermit small particulate to pass therethrough. Accordingly, backing 36can facilitate passage therethrough of the liquid or solid wastematerials received on floor covering 14.

As discussed above, fluid-carrying structure 18, as shown in FIGS. 1-3is positioned between floor base 12 and floor covering 14, andfluid-carrying structure 18, as shown in FIG. 4, is positioned abovefloor covering 14. Either way, fluid-carrying structure 18 is connectedto a supply of cleaning fluid, and provides the cleaning fluid to floorbase 12.

The cleaning fluid can be water supplied directly to fluid-carryingstructure 18 or mixed in various concentrations with concentratedcleaning solution using, as shown in FIG. 5, an optional infusion unit40. Infusion unit 40 includes a tank 42 filled with concentratedcleaning fluid supported by a dolly 44. An input line 46 and an outputline 47 are connected to an infuser 48 that communicates with theconcentrated cleaning fluid in tank 42. Water supplied through inputline 46 is mixed with the concentrated cleaning fluid at infuser 48.Thereafter, the cleaning fluid (a mixture of water and the concentratedcleaning fluid) exits infuser 48 through output line 47. To supply wasteremoval system 10 with the cleaning fluid, output line 47 can beconnected to fluid-carrying structure 18.

Fluid-carrying structure 18 can be formed from piping having variouslengths extending between floor base 12 and floor covering 14 (shown inFIGS. 1-3) or extending above floor covering 14 (shown in FIG. 4). Forexample, the piping of fluid-carrying structure 18 can be formed of CPVC(chlorinated polyvinyl chloride) pipe. Furthermore, fluid-carryingstructure 18 can include a connection 50 for connecting the pipingthereof with the supply of cleaning fluid, and have ends 52 and 53blocked with end caps mating therewith. For example, connection 50 canconnect fluid-carrying structure 18 directly to a water supply or withoutput line 47 of infusion unit 40.

Various apertures 54 can be spaced at intervals along fluid-carryingstructure 18 to release the cleaning fluid at various locations alongfloor base 12. The configuration of various apertures 54 can determinehow the cleaning fluid is released on floor base 12. For example,apertures 54 can be configured to spray or stream the cleaning fluidexiting therefrom onto floor base 12.

Fluid-carrying structure 18 can have various lengths, shapes, andpositions to facilitate cleansing of floor base 12. For example, asshown in FIG. 2, fluid-carrying structure 18 can have an L-shapedfootprint with two lengths of piping facilitating placement adjacent twoedges of waste removal system 10. However, the configuration offluid-carrying structure 18 should not be so limited. For example,fluid-carrying structure 18 can have lengths of piping facilitatingplacement adjacent one or more edges, around the perimeter, and/orthrough the center of waste removal system 10.

Fluid-carrying structure 18 can be positioned proximate the highestelevation of floor base 12. As discussed above, floor base 12 of FIGS.1-3 is sloped from first elevation 26 at the edges of the waste removalsystem 10 to drainage trench 24 at second elevation 28. As such, aportion of fluid-carrying structure 18 is positioned proximate firstelevation 26 to insure that the cleaning fluid travels from firstelevation 26 to second elevation 28 to rinse waste materialstherebetween. Accordingly, the area between fluid-carrying structure 18,and drainage trench 24 and/or drain passage 25 defines a waste removalzone 56.

Depending on the size of the area in which waste removal system 10 isprovided, waste removal system 10 can be adapted to provide multiplewaste removal zones. For example, each of the waste removal zones couldinclude fluid-carrying structure 18 and drainage trench 24 and/or drainpassage 25 associated therewith floor base 12 sloping therebetween.

In a preferred embodiment, the supply of cleaning fluid is provided tofluid-carrying structure 18 at a pressure of 5-14 psi and morepreferably at a pressure of 7-10 psi, and fluid-carrying structure 18 isadapted accordingly. For example, for lengths of 30-60 feet, the pipingforming fluid-carrying structure 18 can have a diameter of three-quarter(¾) inches to accommodate that pressure of the cleaning fluid.Furthermore, apertures 54 would have diameters of one-eighth (⅛) inches,and be spaced 5-12 inches apart from one another and more preferably 10inches apart from one another to accommodate that pressure of thecleaning fluid. Accordingly, depending on the pressure of the supply ofthe cleaning fluid and the length of the piping forming fluid-carryingstructure 18, the size and spacing of apertures 54 can be varied.

During use of waste removal system 10, the waste materials received onfloor covering 14 first pass through the openings formed in backing 36thereof. Thereafter, the waste materials pass through substrate 16, andare received on floor base 12. Because floor base 12, in a preferredembodiment, includes a slope thereto, the waste materials are directedto drainage trench 24 (shown in FIGS. 1-3) and/or drain passage 25(shown in FIGS. 1-4).

The cleaning fluid provided by fluid-carrying structure 18 cleansesfloor base 12 of the waste materials by rinsing thereof. In doing so,the mixture of the cleaning fluid with the waste materials can be moved(using the force of the cleaning fluid and the slope of floor base 12)toward drainage trench 24 or drain passage 25. As such, the mixture ofthe cleaning fluid with the waste materials can be evacuated from floorbase 12.

By receiving the waste materials on floor base 12 and facilitatingdrainage therefrom, floor surfacing 14 can be kept substantially dry ofthe cleaning fluid provided by fluid-carrying structure 18. For example,because fluid-carrying structure 18 of FIGS. 1-3 is provided betweenfloor base 12 and floor covering 14, floor covering 14 in thisembodiment of waste removal system 10 need not be wetted with thecleaning fluid to rinse floor base 12 and facilitate evacuation of thewaste materials therefrom. Furthermore, because fluid-carrying structure18 of FIG. 4 is positioned above floor covering 14, floor covering 14 inthis embodiment of waste removal system 10 need only be wetted in aconfined area adjacent fluid-carrying structure 18. As such, while auser can manipulate a hose sprayer to spray floor covering 14, operationof waste removal system 10 allows floor covering 14 to remainsubstantially dry if the user so desires.

Waste removal system 10 can be automated by providing a programmablecontroller (not shown) and an associated valve (not shown) positionedupstream of fluid-carrying structure 18. The programmable controllersystem can actuate the valve to control flow of cleaning fluid providedto floor base 12 from fluid-carrying structure 18. As such, theprogrammable controller can be used to define various wash cycles forwaste removal system 10.

To define a wash cycle, the programmable controller can be set toprovide a specified amount of the cleaning fluid to floor base 12 atspecified times for specified durations. For example, the programmablecontroller can be set to provide a continuous flow (as opposed to anintermittent flow) of cleaning fluid to floor base 12 every morning fortwenty (20) minutes.

Furthermore, while floor surfacing 14 can be kept substantially dry ofthe cleaning fluid, floor surfacing 14 can be soaked with the cleaningfluid during operation using the programmable controller. For example,programmable controller can be configured to control another valve toclose drain passage 25, and/or can be set to release the cleaning fluidfor a specified time onto floor base 12 at a rate faster than thecleaning fluid and the waste materials are drained therefrom. In doingso, floor covering 14 and floor substrate 16, as well as floor base 12,can be soaked in cleaning fluid before the cleaning fluid and wastematerials are drained therefrom.

Fluid-carrying structure 18 can be connected to a supply of air, and/oran additional air-carrying structure (not shown) connected to the supplyof air can be provided. Like fluid-carrying structure 18, theair-carrying structure can be provided between floor base 12 and floorcovering 14, and/or positioned above floor covering 14. As such, afterfloor base 12 has been cleansed, for example, air can be directed byfluid-carrying structure 18 and/or the air-carrying structure over floorbase 12 to drive residuals (i.e. the mixture of the cleaning fluid withthe waste materials) toward drainage trench 24 and/or drain passage 25,as well as facilitate drying of floor base 12. Furthermore, the airsupplied from the supply of air can be heated to force evaporation ofthe residuals so that floor base 12 can be dried quickly.

Other embodiments of the invention will be apparent to those skilled inthe art from consideration of the specification and practice of theinvention disclosed herein. For example, while described in associationanimal enclosures, waste removal system 10 can also be used as theflooring of athletic facilities and residential spaces. Accordingly, itis intended that the specification and examples be considered asexemplary only, with a true scope and spirit of the invention beingindicated by the following claims.

1. A floor for use in an animal enclosure, the floor comprising: a floorbase being at least in part impermeable to waste materials receivedthereon; an artificial grass surfacing spaced above said floor base,said artificial grass surfacing being at least in part permeable to passthe waste materials therethrough; and at least one fluid-carryingstructure adapted to provide cleaning fluid to said floor base to rinsethe waste materials received thereon, wherein the cleaning fluid and thewaste materials flow along said floor base under said artificial grasssurfacing to facilitate drainage thereof.
 2. The floor according toclaim 1, wherein the cleaning fluid provided by said at least onefluid-carrying structure is a mixture of water and a cleaning solution.3. The floor according to claim 1, wherein said at least onefluid-carrying structure is positioned between said floor base and saidartificial grass surfacing.
 4. The floor according to claim 1, whereinsaid floor base is sloped from a first elevation to a second elevationlower than said first elevation, and said at least one fluid-carryingstructure is positioned proximate said first elevation.
 5. The flooraccording to claim 4, further comprising at least one of a drainagetrench and a drain passage for receiving the cleaning fluid providedfrom said at least one fluid-carrying structure mixed with the wastematerials, said at least one of said drainage trench and said drainpassage being positioned proximate said second elevation.
 6. The flooraccording to claim 1, further comprising a waste removal zone on saidfloor base defined between a first elevation and a second elevationlower than said first elevation, said at least one fluid-carryingstructure disposed proximate said first elevation, and at least one of adrainage trench and a drain passage disposed proximate said secondelevation.
 7. The floor according to claim 1, wherein said at least onefluid-carrying structure includes apertures spaced therealong forreleasing the cleaning fluid therethrough to spaced locations along saidfloor base.
 8. The floor according to claim 1, further comprising asubstrate positioned between said floor base and said artificial grasssurfacing, said substrate supporting said artificial grass surfacingabove said floor base and having at least one opening for passing thewaste materials from said artificial grass surfacing to said floor base.9. The floor according to claim 8, wherein said substrate has a firstside facing said floor base, and a second side facing said artificialgrass, said at least one opening extending between said first side andsaid second side.
 10. The floor according to claim 8, wherein saidsubstrate includes a first side facing said floor base includingchannels extending therealong, said channels allowing passage of thecleaning fluid expelled from said at least one fluid-carrying structuremixed with the waste materials between said floor base and saidsubstrate.
 11. A waste removal system for removing waste materials, thewaste removal system comprising: a floor base for receiving the wastematerials; a floor covering spaced above said floor base, said floorcovering adapted to support an animal or human being thereon, and beingat least in part permeable to the waste materials and in liquidcommunication with said floor base; and at least one fluid-carryingstructure adapted to provide cleaning fluid to said floor base to rinsethe waste materials received thereon, wherein the cleaning fluid and thewaste materials flow along said floor base under said floor covering tofacilitate evacuation thereof.
 12. The system according to claim 11,wherein said at least one fluid-carrying structure is positioned betweensaid floor base and said floor covering.
 13. The system according toclaim 11, wherein said floor base is sloped from a first elevation to asecond elevation lower than said first elevation, and said at least onefluid-carrying structure is positioned proximate said first elevation.14. The system according to claim 13, further comprising at least one ofa drainage trench and a drain passage for receiving the cleaning fluidprovided from said at least one fluid-carrying structure mixed with thewaste materials, said at least one of said drainage trench and saiddrain passage being positioned proximate said second elevation.
 15. Thesystem according to claim 11, further comprising a waste removal zone onsaid floor base defined between a first elevation and a second elevationlower than said first elevation, said at least one fluid-carryingstructure disposed proximate said first elevation, and at least one of adrainage trench and a drain passage disposed proximate said secondelevation.
 16. The system according to claim 11, wherein said at leastone fluid-carrying structure includes apertures spaced therealong forreleasing the cleaning fluid therethrough to spaced locations along saidfloor base.
 17. The system according to claim 11, further comprising asubstrate positioned between said floor base and said floor covering,said substrate supporting said floor covering above said floor base andhaving at least one opening for passing the waste materials from saidfloor covering to said floor base.
 18. The system according to claim 17,wherein said substrate has a first side facing said floor base, and asecond side facing said floor covering, said at least one openingextending between said first side and said second side.
 19. The systemaccording to claim 17, wherein said substrate includes a first sidefacing said floor base including channels extending therealong, saidchannels allowing passage of the cleaning fluid expelled from said atleast one fluid-carrying structure mixed with the waste materialsbetween said floor base and said substrate.
 20. A method for removingwaste materials from flooring, the method comprising: supporting a floorcovering spaced above a floor base; exposing the floor covering to thewaste materials; passing the waste materials through the floor coveringto the floor base; rinsing the waste materials from the floor base witha cleaning fluid; and draining the cleaning fluid and the wastematerials from the floor base.
 21. The method according to claim 20,further comprising simultaneously wetting the floor base with thecleaning fluid, and maintaining the floor covering dry of the cleaningfluid.
 22. The method according to claim 20, wherein a substrate isprovided to support the floor covering on the floor base.
 23. The methodaccording to claim 22, wherein the substrate includes a first sidefacing said floor base, a second side facing said floor covering, and atleast one opening formed between the first side and the second side, andthe waste materials passes through the substrate via the at least oneopening.
 24. The method according to claim 23, further comprisingchanneling the cleaning fluid and the waste materials between the floorbase and the substrate in channels extending along the first side. 25.The method according to claim 20, further comprising locating at leastone fluid-carrying structure to release the cleaning fluid on the floorbase.
 26. The method according to claim 25, further comprising releasingthe cleaning fluid at spaced locations along the at least onefluid-carrying structure.
 27. The method according to claim 20 furthercomprising moving the waste materials in the cleaning fluid from an areadefined between a first elevation and a second elevation lower than saidfirst elevation to at least one of a drainage trench and a drain passageadjacent said second elevation.
 28. The method according to claim 20,further comprising releasing the cleaning fluid onto the floor base at afirst elevation, wherein the cleaning fluid and the waste materials aredrained from the floor base at a second elevation lower than said firstelevation.
 29. The method according to claim 20, further comprisingsloping the floor base from a first elevation to a second elevationlower than said first elevation, and providing at least onefluid-carrying structure at said first elevation.
 30. The methodaccording to claim 29, further comprising releasing the cleaning fluidfrom the at least one fluid-carrying structure, and carrying the wastematerials in the cleaning fluid from the first elevation to the secondelevation.
 31. The method according to claim 30, wherein the cleaningfluid and the waste materials are drained from the floor base at thesecond elevation.
 32. The method according to claim 20, furthercomprising for a specified time releasing the cleaning fluid on thefloor base at a rate faster than the cleaning fluid and the wastematerials are drained from said floor base to soak said floor base.